Computing dispensing device



Aug. 2, 1938n E. J. svENsoN COMPUTING DISPENSING DEVICE Filed Aug. 4, 1937 4 Sheets-Sheet l l1, l uzulMl IL'L ,bidz/@wr .Elrf Jz/e'mon/ @0% ,if 77200@ @5,

r l E m l ug. 2, 1938.. E. J. svl-:NsON

COMPUTING DISPENSING DEV'ICE Filed Aug. 4, 1937 4 Sheets-Sheet 2 E. J. svENsoN 2,125,322

COMPUTING DISPENSING' DEVICE Aug. 2, 1938.

Filed Aug. 4, 1937 4 Sheets-Sheet 5 Q 166 l 1 F1626.

JE@ 13B 15V/Gill.

E05 K -/GJI. A. JEM l Y "1% *[5613 Kwai/2252? A wfyewm COMPUTING DISPENSING DEVICE Filed Aug. 4, 1957 4 Sheets-Sheet 4 J E ff/@114, 15B #i5 n"v las I l 575' *i i Y i. 7 7. 566 E50 546 E40 154 350394353 E75 4 366 Eg l; Egg 3K0 E7 565 E60 f o '/oL l Patented ug, 2, 138

STATES COMPUTING DISPENSING DEVICE Ernest J. Svenson, Rockford, Ill., assignor to Petrolator- Corporation, Chicago, Ill., a corporation of Illinois Application August 4, 1937, Serial No., 157,304

17 Claims.

My invention relates to liquid measuring and liquid distributing apparatus. My invention is particularly adapted to, and it is an object of my invention to provide, a new and improved iluid ow meter adjustable in accordance with predetermined price variations for correspondingly altering the capacity oi the meter, and also my invention relates to and provides the utilization and adaptation of this improved low meter in l@ combination with other elements to form a com-' or other like member associated with the timing l member, such, for instance, as' valve means, for stopping and starting the relatively movable elements and providing a flow of :duid thereto during 25 a predetermined angularity of the cam plate or like member.

A further object of the invention is to provide a meter, and also to provide a dispensing pump structure involving a meter, of the duid displaced@ ment type, including one or more cylinders and pistons, provided with means adapted to control the fluid flow in such a manner that each piston will be arrested at a predetermined position in its return stroke, and by providing a cut-off or seal- 35 ing means, preferably a valve, disposed so that upon a preselcctable angular movement of a ro tary plate operated by movement of the pistons the iiow of fluid to said pistons will cease, Whereby it is possible positively and accurately to determine the extent of travel of the aforesaid pis tons, and, hence, accurately to determine the 'amount of liquid passed per unit of angular move ment of said-plate, and in connection with the dispensing of liquid the invention provides means 15 for adjusting the cut-off or sealing means in increments of unit price per unit of volume and a total cost register operated by the meter a predetermined ilxed amount per metering cycle for indicating thetotal cost of fluid passed through the -50 meter during any given interval in deilnite terms of preselected increments of unit price per unit dfY volume.

A further object of my invention is to provide a new and more emclent type, of fluid meter, and

55 also to provide a :new and more eillcient type of (Ci zal- 95) liquid dispensing pump utilizing such a meter, wherein means are provided to feed a governed amount of fluid to a cylinder and a displaceable piston operating'therein, as distinguished from a meter in which the stroke of the piston governs the amount of duid measured by the successive movements oi'- said piston.

A further object of the invention is to provide a meter, and also to provide a fluid dispensing apparatus utilizing such a meter, wherein the meter is provided with a plurality of cylinders and displaceable pistons operating therein, and wherein a cam plate or like member is rotated by the said pistons under the force of the fluid passing into and out of said cylinders, and wherein valve meansA is provided for governing the amount of fluid supplied successively to said cylinders and successively discharged therefrom, and wherein said valve means is in turn operated by said cam plate or like member together with means for adjustably shifting the valve means independent of said cam plate or like member for selectively governing the amount of Huid supplied to each of said cylinders for actuating the piston thereof and which governed amount of fluid in turn is dis-l Ycharged from said cylinders and measured.

A further object of the invention is to provide a new and more efficient type of liquid dispensing pump, including a liquid displacement-meter inserted in a flow line through which liquid under pressure is supplied for operating said meter, said meter including an operated shaft, a total cost register operated by said shaft to indicate the total cost oi fluid measured by said meter during any predetermined operating interval in terms of a deiinite unit price per unit of volume, and including means for adjusting the unit cost per unit of volume, which adjusting means automatically causes the total cost register to indicate the total cost at any newsetting of any new price per unit of volume, and wherein a simple type of adjustable gearing calibrated in accordance with variations in unit price per unit of volume is properly interconnected with said adjusting means whereby said last mentioned gearing will, in conjunction with a volume register, indicate the total volume of liquid dispensed by said meter.

Another object of the invention is to provide a liquid dispensing pump mechanism including a liquid ow line having inserted directly therein a meter of the type hereinbefore described which co-operates with a cost register for indicating the total cost of liquid measured by said meter during any given interval at any selected value of unit price per unit or volume, andin combination,V f

therewith a second meter disposed in said flow line in series with the first meter and operated by the liquid passed by said first meter, together with an amount or volume register operated by said second meter for indicating the total volume of liquid passing through said flow line during any given interval and corresponding in amount to the total cost indicated by said total cost register divided by the unit price per unit of volume, and wherein the meter operating the total cost register is adjustably controlled to vary theamount of liquid passed to the second meter in accordance with variations in unit price per unit of volume.

The foregoing and other objects of the `invention will be more readily apparent from a perusal of the following specification taken in connection with the accompanying drawings, in which Fig. 1 is a side elevation of one form of my invention as adapted to a liquid dispensing device, more particularly a gasoline dispensing pump of the computing type;

Fig. 2 is an adaptation of my invention as applied to a liquid dispensing device, more particularly a gasoline dispensing pump, wherein a second uid displacement-meter is inserted in the flow line for operating a volume or amount register, while the meter of the type shown vin Fig. 1 operates a total cost register;

Fig. 3 is a detail sectional view of a part of the pump driving mechanism;

Fig. 4 is a section taken through a new and improved type of fluid displacement-meter comprising one of the aspects of my invention, which meter may be utilized independently of the combinations illustrated in Figs. l and 2 .of the drawings;

Fig. 5 is -a view of a cam plate and shows the various co-operating pistons;

Fig. 6 is a plan section taken on the line G-6 of Fig. 4;

Fig. 7 is a section taken on the line 'I`| of Fis. 6:

Fig. 8 is a horizontal section taken on the line 8-8 of Fig. 4;

Figs. 9 and 10 are detail views showing the control parts of the valve mechanism for the meter;

Figs. 11. 12 and 13 are horizontal sections taken along the lines II--I I, I2-I2, and I3I3, respectively, of' Fig. 9;

Fig. 1`4 is an elevational view of the total cost and total volume registers;

Fig. 15 is a vertical section taken along the line IS--IB of Fig. 14.

This application is a continuation-in-pnrt of my prior copending application Serial No. 114,329, filed December 5, 1936, now issued as Patent No. 2,117,750, dated May 17, 1938.

My invention comprises three main subdivisions, to-wit, a new type of fluid displacementmeter, means providing for the adaptation and utilization of this type of meter with total cost and total volume registers, and means providing for the adaptation and utilization of this type of meter in a fluid dispensing pump in combination with a second meter of any desired type. This second meter is adapted to operate a total volume register and this second meter is wholly disconnected from mechanism operated by the first meter indicating the total cost of the liquid dispensed at selective units of price per unit of volume. The new type of fluid displacementmeter mentioned above is provided with means to feed a definite amount of iiuid into the metering chambers thereof, which amount is proportional to and determined by the unit price per unit of volume of iiuid being measured, said means being adjustably controllable to vary the amount of fluid so supplied in accordance with variations in the unit price per unit of volume, and said meter including means for operating a total cost register through a predetermined xed extent per metering cycle, lthe movement of the total cost register being independent of the amount of iiuid passed by the meter per metering cycle.

Another feature of my invention resides in providing in combination with this new type of meter, price control means for connecting the meter to a total volume or amount register whereby the extent of movement of the total volume register per metering cycle may be varied in accordance with price variations and in direct relation to variations in the governed amount of fluid supplied to the metering cylinders of said meter.

I shall describe the construction and operation of the various features above set forth, and particularly the construction and operation of the specific form of meter shown in Fig. 4, by reference to the construction and operation of the gasoline dispensing pump shown in Fig. l, it being understood, of course, that this description is not by Way of limitation but purely for purposes of exposition.

Referring now to the drawings in detail, there is provided the usual type of fluid reservoir, specifically, a gasoline reservoir 2, into which the usual pump inlet pipe 4 enters, being pro- Y vided with the usual type of control valve which is well known in the art. This pipe enters into an upstanding casing 6 of any desired form, wherein there is disposed any type of pump B driven by a motor ID by a suitable motion transmitting mechanism comprising a belt II and pulleys I2. Each pulley I2 comprises a disk |2a, Fig. 3, fixed to the motor shaft and a disk IZb splined on said shaft and movable axially thereof. The disks I2a and I2?) are provided with beveled edge portions to receive therebetween the belt II. A spring I3 interposed between the disk I2b and a stationary abutment controls the frictional driving engagement between the pulley and-the belt. The gasoline dis charged from the pump 8, passes through a pipe I4 into an air separator I6 and thence by a pipe I8 to a meter 20, specifically illustrated in Fig. 4. The discharge from this meter 20 passes through a pipe 22 to a sight glass 24 and thence through a flexible dispensing hose 26. The dispensing line is provided with a suitable flow control means such as a nozzle valve 28 at the end of the usual flexible hose. This nozzle valve is provided with a valve control lever 32 for controlling the fiow therefrom and the usual standby hook 3l is provided to receive the nozzle when not in use.

The housing is provided with a plurality of windows, preferably on opposite sides thereof, there being on each side a window 3B in which an indication of the number of gallons dispensed may be displayed, a second window 38 in which a running indication of the total value of gasoline dispensed and the final value of the purchase may be displayed, and also a third window Mi for indicating the unit price, i. e., the price per unit oi' volume, specically, cents or fractions of cents, per gallon, when used in the United States, and when used. in other countries according t-o the units of price and volume.

The meter 20, as shown in Figs. 4 to 8, comprises a bow-l 42 connected at its bottom to the pipe i8, and supporting at its upper end a cylinder block 44, a head block or plate 46 being interposed between the cylinder block and the bowl. Suitable gaskets 48 and 50 are interposed between the block 44, the bowl 42 and the plate 46. Suitable alining means such as pins 52 maintain the block 44 and plate 46 in proper relative posi tion. The cylinder block 44 is provided with a plurality of angularly spaced cylinders 54, preferably ve in number. The cylinders 54 are concentrically disposed relative to a central bore 56 formed in the block 44. Each cylinder 4is provided with a piston 52 having a piston rod 60 slidably mounted and guided in bosses 62 formedin a spider 64 or thelike formed integrally with the block 44. Each piston rod 60 has at its upper end an enlarged conical head 66 engaging the cam surface of a rotary cam or like plate 68. The cam 66 is secured to or formed with a shaft l@ journaled by an antifriction bearing 12 in the top of a casting 14 forming an upper bowl for the meter 20, the bowl 'i4 being secured in any suitable manner to the top of the cylinder block 44. A suitable plate i6 is interposed between the bowl 'i4 and the block 44.

The bowl 'I4 is connected at its upper edge with the discharge pipe 22 and is secured against loss of fluid axially of the shaft 10 by a sealing means 10. The sealing -means 'I8 comprises a collar or washer 20 secured to the top of the bowl 14 and having an axially extending annular flange 82 to which there is secured a diaphragm or sylphon 84. The sylphon or diaphragm 84 is connected at its lower end to a collar or washer 86 similar to the collar 80. A sealing washer 88, of any suitable material such as felt or the like, is interposed between the collar 86 and the upper surface of the cam 68. The collar 86 is loosely mounted on the shaft 10 and the spring 90 interposed between this collar and the collar acts through the collar 86 to maintain the washer 88 in fluid-tight engagement with the upper surface of the cam.

The cam 68 has a downwardly depending central hub portion 8| slotted transversely as at 92. The transverse slot 92 extends axially of the hub 9i and slidably and adjustably receives the upwardly projecting end portion 84 of a rotary valve member 06. The slot 92 and the projecting end portion 94 are so shaped that the cam 66 and the valve member 86 rotate in unison. The rotary valve member 06 is slidably and rotatably journaled in the bore 56 of the cylinder block 44 and in a bore 22 formed in a boss |04? formed integrally with the cylinder head block` or plate 46. At its lower end the valve member 86 is journaled by a suitable antifriction'bearing |02 in a cupshaped member '|04, the bearing |02 being retained in the member |04 by a threaded ring G26. and non-rotatably secured in the rim portion id@ of a spider I|0 formed integrally withthe bowl 42, this connection between themember |04 and the spider ||0 being preferably accomplished by providing the member H24 with a plurality of axially extending peripheral projections H2 slide ably received in similarly shaped slots cut from the inner surface of the rim portion |08. The cup-shaped member |04 is secured to or formed integrally with a downwardly depending rack bar M4 which meshes with a gear H66 secured to an adjusting shaft H8 suitably journaled in bear= ings 420 and |22 formed in the lower portion of The cup-shaped member |04 `is slidably t the bowl 42. The shaft |8 extends outwardly of the bowl 42 for manual manipulation in a manner later to be described in order that the cup member |04 and the valve member 96 may be adjusted longitudinally relative to the spider ||0 and the cylinders 54, respectively.

The valve member 96 is provided with a transverse inlet passage |24 in communication with the interior of the bowl 42 and in communication with a longitudinal passage |26 formed internally of the valve member. The valve passage |26 extends between the passage |24 and a quantity controlling valve recess |28 formed in the periphery of the valve member 96. The recess |26 is preferably of a shape as shown in Figs. 9, 11, 12 and 13, in which the base of the recess is substantially semicircuiar in outline and tapers longitudinally of the valve member 96 in a man ner to provide an upper portion of minimum peripheral width, the circumferential width of the groove varying in direct proportion to its length axially of the valve. The valve inlet recess |28 communicates with the cylinders 54 by means of radial passages |30, Figs. 4 and 8, cut into the lower surface of the cylinder block 44. The recess or groove |28 determines the amount of fluid delivered to the cylinders 54.

The valve 92 is additionally provided with an outlet port or groove |32 shaped as shown in Figs. 4, 8 and 10, and equal in axial length to the axial length of the intake port or groove |28. An internal port or groove |34 in the valve 96 places the port l32 into communication with the bowl 14 from which the fluid is exhausted through the pipe 22.

Means are provided for adjusting the shaft ||8 and the valve 96 in accordance with varia# tions in unit price per unit of volume of fluid metered. This means comprises a manually operable shaft |36 journaled in the pump casing 6, and provided at its extending end outwardly of said casing with an operating knob or crank |38. A worm |40 secured to the shaft |36 meshes with and operates a worm gear |42 secured to the shaft I8 outwardly of the meter 20. Price indicating means, calibrated in increments of unit price per unit of volume, are operated simultaneously with the adjustable shaft ||8 and the valve 96. This means comprises a drum |44 secured to the shaft ||8 adjacent the worm gear |42 and provided pn its exterior surface with indications |46 and |48 of unit price, the indications |48 being arranged oppositely relative to theindications |46. The indications |46 on the drum |44 are visible through the opening 40 in one side of the casing 6, and the indications |48 are visible through a like window in the opposite side of said casing.

A total price or cost register hereinafter to be described is operated by a bevel gear |50 (Figs. 1, 2, 14 and l5) secured to the upper end of the meter shaft l0. A total volume register herein# after to be described is operated by a' gear |52 secured to a vertical shaft |54. Means are provided for operating the shaft |54 and the total volume register in accordance with the amount of liquid discharged from the meter 20. In the teeth |66 of a gear |68 loosely journaled on a shaft |10 also journaled in the bracket |62. 'I'he gear |68 is formed integrally with a bevel gear |12 which meshes with a bevel gear |14 .journaled on a stud or pin |16 secured to and extending from the shaft |10. A screw and washer |18 and |80, respectively, secure the gear |14 against movement axially of the stud or pin |16. A portion of the surface of the shaft |10 is flattened, as shown at |82 in Fig. 7, to form a bearing surface for the gear |14 and for a gear |84 which meshes with the teeth of a gear |86 formed integrally with the gear |14. The gear |84 is secured to a shaft |88 loosely journaled in a diametrically extending opening in the shaft |10.

The shaft |10 is additionally provided with an axially extending slot |90 in which is positioned a friction wheel |92 secured to the stud or shaft |88. The friction wheel |92 is provided with oppositely tapering edge portions |94 and |96, Fig. 4, and a center cylindrical rim portion |98. The rim portion |98 of the friction wheel |92 is adapted to frictionally engage and be driven by a friction wheel 200 secured to the shaft 10 between the bevel gear |50 and the meter 20, the engaging surface of the friction wheel being of progressively decreasing diameter as shown in Fig. 4. Means are provided to vary the point of operating engagement between the friction wheels 200 and |92, to vary the speed of rotation of the shaft |54 relative to the shaft 10 in accordance with variations in unit price per unit of volume of the liquid being dispensed. This means comprises a gear segment 202 secured to a reduced portion of the shaft |10 and meshing with a rack bar 204, which is guided in a lug 206 formed at the upper end of the meter 20 and in the annular flanges of the bowl 14 and cylinder block 44 of the meter 20.

At its lower end the rack bar 204 is provided with a threaded opening adjustably receiving a screw 208. The screw 208 is provided with both left hand and right hand threads, the threads of one direction being received in an opening in the bar 204 and the threads of the other direction being received in a like opening in the top end of a rack bar 2|0 guided in the annular flanges of the cylinder block 44, the bowl 42, the cylinder head 46, and the lug 2|2 formed integrally with and extending laterally from the bowl 42. A knurled collar or adjusting member 2 |4 is formed upon or secured tol an intermediate portion of the adjusting screw 206. Lock nuts 2|6 and 2|8 maintain the rack bars 204 and 2|0 in adjusted position relative to each other. The rack bar 2|0 meshes at its lower end with a gear 220 secured to shaft ||8 of the unit price indicating and varying means.

The operation of the meter 20, the price register operating shaft 10 and the volume register operating shaft |54 is as follows: The meter 20 and the price indicating drum |44 are first calibratedA and the rack bars 204 and 2|0 adjusted in accordance with that calibration. Fluid supplied to the meter. 20 by the motor driven pump 8 through the pipe I8 flrst passes into the bowl 42, thence passes through the inlet passages |24 and |26 to the inlet port or groove |28 and through an opening |30, with which the groove |28 may be in communication, into the cylinder 54 associated with that opening. The fluid being under substantial pressure, the piston 58 of that cylinder 54 will be `forced upwardly. The conical head portion 66 .of the piston rod 60 associated with that piston will engage the cam surfaceof the cam plate 68,

thereby causing rotation of said plate. With the valve 96 in its lowermost position, the port or groove |28 will establish communication with the next or succeeding cylinder just prior to cutting off communication with the previous cylinder. The extent of movement of the pistons 58 will be determined by the amount of fluid under pressure admitted to the cylinders, and the amount of fluid so admitted is determined by the relative position of the port |28 and the cylinder openings |30. When the valve 96 is adjusted axially of the cylinders and the cam plate to admit the minimum amount of fluid to the cylinders, the unit price being at its maximum, the cylinders are successively placed in communication with the inlet passages in the valve prior to the time that the previous cylinder is cut off and therefore the pistons 58 will cause the cam plate 68 and the shaft 10 to be rotated continuously. With the intake port or groove |28 adjusted to its lowest point to admit a minimum amount of iluid to the metering cylinders, the friction wheel |92 will be so adjusted as to engage the friction wheel 200 at a point of minimum radius. The friction wheel |92 rotates the shaft |88 andthe gear |84 attached thereto. The gear |84 causes the rotation of the gear |86 and the bevel gear |14 formed therewith. The bevel gear |14 causes the rotation of the combined gears |12 and |68 which in turn, through the combined gears |64 and |58, cause the rotation of the gear |56 and the shaft |54.

Upon a change in unit price per unit of volume, the knob or crank |38 is manually operated to rotate the adjusting shaft I8, by means of the worm and worm gear |40 and |42, respectively, until the new unit price is displayed behind the window 40 of the casing 6. Rotation of the shaft ||8 causes a rectilinear movement of the rack bars ||4 and 2|0. If the variation in price is in a price decreasing direction, the rack ||4 will be moved upwardly, and the rack bar 2 0 downwardly, by the shaft |8. Assuming that the new price is the minimum for which the machine has been constructed, the valve 96 will assume the position shown 'in Fig. 4, wherein the lowermost portion of the groove |28 will be in horizontal registration with the openings |30 in the cylinders 54. A maximum amount of fluid will therefore be admitted into the cylinders 54 during each rotation of the valve 96 and its operating cam plate 68. As shown in Fig. 8, in this position of adjustment of the valve 96 the cylinders 54 are successively placed in communication with the inlet passages in said valve and a plurality of the cylinders are also simultaneously in communication with said inlet passages. Corresponding to this adjustment of the valve 96, the friction wheel |92 will engage the driving surface of the friction wheel 200 at a point of maximum diameter, whereby the shaft |54 is driven at its maximum speed relative to the 14, from whence it is discharged through the outlet pipe.

In the form of the invention shown in Fig. 2, the shaft l54 of the total volume register is operated by a meter 222 of any suitable type connected by a pipe 224 to theoutlet of the meter 29 and by a pipe 223 to the sight glass 24. In this form of the invention, as in the form of the invention illustrated in Figs. 1 and 6 to 13, the operating shaft 'I9 for the cost register is operated one revolution per metering cycle and the amount of fluid passed by the meter 29 is varied in accordance with variations in unit price per unit of volume of the fluid being dispensed.

Referring to Figs. 14 and 15, it will be seen that the operating shaft |54 for the volume register drives, by means of the gear 52, a gear 228 fixed l site side of the housing. All or' the price indicating on a shaft 239 upon which shaft is fixed a gear 232, which in turn drives another gear 234 secured to a shaft 235. This gear 234 in turn drives a gear 236 frictionally connected to the lowest order indicator dial 238. This dial 23B has formed on its opposite side a one-toothed Geneva gear 249 which in turn drives a Geneva gear 242 on a shaft 244, and this Geneva gear 242 in turn drivesla gear 24B 'frictionally connected to the second order volume indicating dial 248. In a similar manner, the dial 248 drives a third order dial 259. The three dials 238, 248 and 259 constitute the volume indicating dials. In a similar manner, a gear 252 pinned to the shaft 239 drives a gear 254, which in turn drives a gear 256 frictionally connected to the lowest order volume indicating dial 258 on `the other side of the housing. This lowest order volume indicating dial 258 is connected to and drives asecond order volume indicating dial (not shown) and this latter in turn drives a third order indicating dial (not shown) all in a manner similar to the operation of the second and third order indicating dials 249 and 259 previously described.

The operating shaft i9 for the total price register drives a shaft 265i by means of a gear 262 meshing with the gear itil securedy on the upper end of the shaft I9. lIhe shaft 2t@ carries a gear 254 which drives a gear 236 secured to the shaft 268, which gearv 2&3 in turn drives a gear 2id frictionally connected to thelowest order price indicating dial 2`l2. This dial is similar in construction to the lowest order volume indicating dial 23d hereinbeiore described, and, similarly, has on its opposite face a one-toothed Geneva gear 2id which drives a Geneva gear 21d, which in turn drives a gear 2id .trictionally connected to the second order price indicating dial 239. In sequence there are provided other price indicating dials 2t@ and 235i which are likewise driven through similar Geneva gear movements. rlF'lie dials 222, 23d, 232 and 29d constitute the total price or cost indicating dials, and these are duplicated on the opposite side o the pump housing er casing t to be observable through an appropriate window therein.

To this out, shaft has xed thereto at its endoppcsite the gear 23d, a gear 23d which drives a gear which in turn is drivingly confx11 nected to the lowest order price dial on the oppodials and all of the volume indicating dials are loosely mounted on their respective shafts, as are their driving gears such as gears and Y Mounted 'within each dial is a friction disk, such as the disk which is shown in cross seetion within the dial rthis disk is pressed by springs 292 against the surface of its driving gear 294, and this disk also has /a driving connection with the dial 284 through a key 296. The key passes through a hub formed interiorly of the dial 294. Upon rotation of the gear 294 during a dispensing operation, the dial 284 will be driven through the friction disk 299. This same driving connection is provided between each one of the volume and price indicating dials and its driving gear adjacent thereto.

In order to reset these dials to initial or zero position after dispensing of the liquid, suitable mechanism is provided. The shaft 298 has on its extending end a crank` handle 309, Figs. 1 and 2, which in order to reset the dials to zero must be operated at the end of every dispensing operation or transaction and before the next dispensing operation or transaction takes place. The shaft 298 has a groove 302 cut longitudinally thereon, as shown in Fig. 15, which, upon rotation of the handle 399 in a clockwise direction, engages a pawl 394 at some time during its rotation. The pawl 394 is mounted on the inner side of each of the dials (Fig. 15) and has a spring 306 to keep the pawl in engagement with the surface of v-lhe shaft in position to drop into the groove 392.vv "By turning the crank 309, the notch 392 in the shaft 298 engages the pawl 394, thereby turning the dials to which the corresponding pawls are attached. In this way the dials are set to a starting or zero position and are prepared for another indicating operation. The driving gears Yfor the indicating dials do not interfere with their zero setting because of the fact that the dials are frictionally driven by the gears.

Means are provided for insuring that on a single rotation of the resetting shaft 29d-and its similar resetting shaft 298', the crank handle 399, in order to complete a resetting operation,- is rotated a complete revolution of 369 degrees. The end of the handle 399 carries a spring pressed latch or pin 399 which registers with a small opening in the side of the housing. When the handle 399' has been rotated one revolution, the spring pressed latch will automatically snap into the opening in the housing and thereby prevent the operator from passing the Zero positions on the indicating dials. The shaft 299 carries on its inner end a gear 3l@ fixed thereto. This gear drives a gear 3l2 and the latter, in turn, drives a gear tid. An idler gear 3l@ meshes with the gear 3M and with a gear (not shown) secured to the reset shaft 29d', whereby the shat is reset simultaneously with the shaft 29d.

The resetting operation resets the volume and total price dials to zero but does not atleet the register operating shafts l and itil, and accordingly, said shafts remain stationary during the resetting operation.

It is to be understood that any desired 'type ci' n fc conventional resetting mechanism, either mank ual or power operated, may be utilized in lieu oi the resetting mechanism herein described, and also that means well irnownin the art may he utilized for interlocking the manual or power rem set means with the support for `the hose nozzle.

Changes may be made in the form, construction and arrangement ci parts without departing from the spirit of the invention or sacrificing any oi its advantages, and the right is hereby reserved to malte all such `changes as fairly tail within the scope of the following claims.

The invention is hereby claimed as follows:

i. in liquid dispensing apparatus, the combination et a source of liquid supply, a pump, the in= e take side of which is connected to said source, dispensing means, a meter connected to the outlet side of said pump and to said dispensing means, a cost indicating register operated by said meter, an amount indicating register, means for varying the amount of iluid passing through said meter per unit of operation in accordance with variations in the unit cost per unit amount of the fluid being dispensed, and means operably connected to said last mentioned means for operating the amount indicating register.

2. In liquid dispensing apparatus, the combination oi. a source of supply, dispensing means, means for measuring the liquid dispensed, a cost register, means connecting the register to said measuring means for operating said register through a fixed registration per unit of operation of the measuring means independent of the amount of liquid measured, means for varying the amount of liquid passing through said measuring means in accordance with variations in unit cost per unit amount, an amount indicating register, and means connected to said measuring means for operating said last mentioned register in accordance with the amount of liquid measured.

3. In liquid dispensing apparatus, the combina,- tion of a source of liquid supply, dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is connected to said dispensing means, said meter comprising a plurality of relatively shiftable means for measuring the amount of liquid dispensed, a cost indicating register, a cam operated by said relatively shiftable means and connected to said cost indicating register for operating the latter a xed amount per cycle of operation of said plurality of relatively shiftable means, means connected to said cam for controlling the flow of liquid passing through said relatively shiftable means, and means for controlling said flow control means selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

4. In liquid dispensing apparatus, the combination of a. source of liquid supply, dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is connected to said dispensing means, said meter comprising a plurality of relatively shiftable means for measuring the amount of liquid dispensed, a cost indicating register, a cam operated by said relatively shiftable means and connected to said cost indicating register for operating the latter a nxed amount per cycle of operation of said plurality of relatively shiftable means, a rotary member connected to said cam for controlling the flow of liquid passing through said relatively shii'table means, and means for controlling said ow control means selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

5. In liquid dispensing apparatus, the combination of a source of liquid supply, dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is connected to said dispensing means, said meter comprising a plurality of relatively shiftable means for measuring the amount of liquid dispensed, a cost register, means operated by said relatively shlftable means for operating said cost register a fixed amount per cycle o operation o! said plurality of relatively shiftahle means, a valve ccn-n nected to said operating means for controlling the flow of liquid passing through said relatively shiitable means, and means for controlling said flow control valve selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

6. In liquid dispensing apparatus, the combination of a source of liquid supply, dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is connected to said dispensing means, said meter comprising a plurality of relatively shiftable means for measuring the amount of liquid dispensed, a cost indicating register, a cam operated by said relatively shiftable means and connected to said cost indicating register for operating the latter a fixed amount per cycle oi operation of said plurality of relatively shiftable means, a valve con nected to said cam for controlling the flow of liquid passing through said relatively shiftable means, and means for controlling said flow control valve selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

7. In liquid dispensing apparatus, the combination of a source of liquid supply, dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is con nected to said dispensing means, said meter com prising a plurality of relatively shiitable means for measuring the amount of liquid dispensed, a cost indicating register, a cam operated by said relatively shiftable means and connected to said cost indicating register for operating the latter a xed amount per cycle of operation of said plurality of relatively shiftable means, a rotary valve adjustably connected to said cam for controlling the iiow of liquid passing through said relatively shiftable means, and means for controlling said rotary iiow control valve selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

8. In liquid dispensing apparatus, the combination of a source of liquid supply, dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is con nected to said dispensing means, said meter comprising a, plurality of relatively shiftable means for measuring the amount of liquid dispensed, a cost register, means operated by said relatively shiftable means for operating said cost register a fixed amount per cycle of operation of said plurality of relatively shiftable means, a rotary valve adjustably connected to said operating means for controlling the ilow of liquid passing through said relatively shiftable means, and means for controlling said rotary ow control valve selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

9. In liquid dispensing apparatus, the combination of a source o1' liquid supply, dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is connected to said dispensing means, said meter comprising a plurality of relatively shii'table means for measuring the amount of liquid dispensed, a cost indicating register, a cam operated by said relatively shiftable means and connected to said cost indicating register for operating the later a iixed amount per cycle of operation of said means, a meter, the inlet plurality ofv relatively shiftable means, means connected to said cam for controlling the W of liquid passing through said relatively shiftable means, and adjustable unit price indicating means for controlling said flow control means selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

10. In liquid dispensing apparatus, the combination of a source of liquid supply, dispensing means, a meter, the inlet of which is connected .to said source and the outlet of which is connected to said dispensing means, said meter comprising a plurality of relatively shiftable means for measuring the amount of liquid dispensed, a cost indicating register, a cam operated by said relatively shiftable means and connected to said cost indicating register for operating the latter a fixed amount per cycle of operation of said plurality of relatively shiftable means, a rotary member connected to said cam for controlling the ow of liquid passing through said relatively shiftable means, and adjustable unit price indicating means for controlling said flow control means selectively to change the amount of liquid passing through said meter in accordance with variations in unit cost per unit amount of liquid dispensed.

11. In liquid dispensing apparatus, the combi'- nation of a source of liquid supply,dispensing means, a meter, the inlet of which is connected to said source and the outlet of which is connected to said dispensing means, said meter comprising a plurality of relatively shiftable means for measuring the amount of liquid dispensed, a cost register, means operated by said relatively shiftable means for operating said cost register a fixed amount per cycle of operation of said plurality of relatively shiftable means, means connected to said cost register operating means for controlling the flow of liquid passing through said relatively shiftable means, an amount indicating register, means connected to the cost register operating means for operating said amount indicating register. said last means comprising a motion transmitting mechanism having an adjustable ratio of movement relative to said cost register operating means, means for controlling said flow control means to vary the amount of liquid passed through said relatively shiftable means in accordance with variations in unit cost per unit amount of liquid dispensed, and means connected to said last mentioned means for adjusting the ratio said motion transmitting mechanism in accordance with said variations.

12. In liquid dispensing apparatus, the cornbination of a source of liquid supply, dispensing of which is connected to said source and the outlet oi which is connected to said dispensing means, said meter comprising a plurality oi relatively shiftable means for measuring the amount oi liquid dispensed, a cost indicating register, a cam operated by said relatively shiftaole means and connected to said cost indicating register tor operating the latter a fixed amount per cycle ci operation or said plurality of relatively shiitable means, means ccnnected to said cam for controlling 'the r'lotv or" liquid passing through said relatively shlitable means, an amount indicating register, connected to said cam for operating said amount indicating register, said last means comprising a motion 'transmitting mechanism having an adinstable ratio oi movement relative te said earn,

ci movement of means for controlling theilow control means to vary the amount of liquid passed through said relatively shiftable means in accordance With variations in unit cost per unit amount of liquid dispensed, and means connected to said last mentioned means for adjusting the ratio of movement of said motion transmitting mechanism in accordance with said variations.

13. A meter, liquid displacement means therefor operated by the flow of liquid through said meter, price registering means operated by said displacement means in proportion to the volume of liquid displaced thereby, means for adjustably varying the operation of said displacement means by the liquid flow in accordance with units of price per volume of the liquid flowing throughsaid meter, said liquid displacement means comprising a cylinder and piston construction wherein the piston is floatingly mounted in the cylinder, and said varying means including provisions for controlling the amount of liquid introduced into the cylinder at each cycle of operation of the meter whereby to adjust the stroke of the piston therein.

'14.' In a gasoline computing pump, the combination of means forming a liquid ilow line through which liquid is adapted to flow under pressure, means for controlling the ow of liquid through said line, two meters in series in said line, each meter having an operable element moved in proportion to the ilow of liquid through said meter, volume registering means operated by the operable element of one of said meters, price registering means operated by the operable element of the second meter, means for variably adjusting the movement of the operable element of said second meter in accordance with selected values source, dispensing means, a meter 'connected to the outlet side oi said pump and to said dispensingmeans, a cost indicating register operated by said meter, an amount indicating register, means for operating said amount indicating register in accordance with the amount of liquid passed through said meter, means for varying the amount of liquid passed through said meter in accordance with the variations 'ci unit cost of the liquid dispensed, said meter including a cylinder and piston construction wherein the piston is floatingly mounted within the cylinder, and said varying means having provisions for controlling the amount oi liquid introduced into the cylinder per cycle of operation of the meter whereby to adjust the stroke oi the piston therein,

i6. In liquid dispensing apparatus, the commeans for varying the amount of liquid passed through said meter in accordance with varia* tions in unit cost per unit amount of the liquid dispensed, said meter comprising a cylinder and piston construction wherein the piston is floatingly mounted in the cylinder, and said varying means including provisions for adjustably controlling the amount of liquid passed through the cylinder per cycle of operation of the meter whereby to adjustably control the stroke of the piston in 1() the cylinder.

ERNEST J. SVENSON. 

